# Copyright 2023-present Daniel Han-Chen & the Unsloth team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

__all__ = [
    "PatchFastRL",
    "vLLMSamplingParams",
]

import torch
from typing import Any, Callable, Dict, List, Literal, Optional, Tuple, Union
import inspect
import os
import re
import torch
from unsloth_zoo.compiler import create_new_function
from unsloth_zoo.logging_utils import PatchRLStatistics
from unsloth_zoo.rl_replacements import RL_REPLACEMENTS
from .rl_replacements import (
    RL_EXTRA_ARGS,
    RL_FUNCTIONS,
    RL_PRE_ITEMS,
    RL_CONFIG_CHANGES,
    RL_METRICS_CHANGES,
)

torch_compile_options = {
    "epilogue_fusion": True,
    "max_autotune": False,  # Disable Triton mm kernels
    "shape_padding": True,
    "trace.enabled": False,
    "triton.cudagraphs": False,
}

from trl import __version__ as trl_version
from unsloth_zoo.utils import Version

trl_version = Version(trl_version)


def vLLMSamplingParams(**kwargs):
    from vllm import SamplingParams

    sampling_params = SamplingParams(**kwargs)
    sampling_params._set_kwargs = kwargs
    return sampling_params


def PatchRL(FastLanguageModel):
    from trl.models.utils import unwrap_model_for_generation
    from contextlib import contextmanager

    @contextmanager
    def unsloth_unwrap_model_for_generation(model, *args, **kwargs):
        with unwrap_model_for_generation(model, *args, **kwargs) as unwrapped_model:
            # Put the model in inference mode.
            FastLanguageModel.for_inference(model)

            # We must use .clone for Unsloth since we force inference_mode
            # Rather we should have used no_grad
            original_generate = unwrapped_model.generate

            def generate_with_clone(*args, **kwargs):
                out = original_generate(*args, **kwargs)
                if isinstance(out, torch.Tensor):
                    return out.clone()
                return out

            unwrapped_model.generate = generate_with_clone

            try:
                yield unwrapped_model
            finally:
                # Restore generate and return
                unwrapped_model.generate = original_generate
                FastLanguageModel.for_training(model)

    from transformers import Trainer
    from transformers.trainer_pt_utils import nested_detach

    @torch.no_grad()
    def unsloth_prediction_step(
        self,
        model,
        inputs,
        prediction_loss_only,
        ignore_keys,
    ):
        """
        Perform an evaluation step on `model` using `inputs`.
        Subclass and override to inject custom behavior.
        Args:
            model (`nn.Module`):
                The model to evaluate.
            inputs (`Dict[str, Union[torch.Tensor, Any]]`):
                The inputs and targets of the model.
                The dictionary will be unpacked before being fed to the model. Most models expect the targets under the
                argument `labels`. Check your model's documentation for all accepted arguments.
            prediction_loss_only (`bool`):
                Whether or not to return the loss only.
            ignore_keys (`List[str]`, *optional*):
                A list of keys in the output of your model (if it is a dictionary) that should be ignored when
                gathering predictions.
        Return:
            Tuple[Optional[torch.Tensor], Optional[torch.Tensor], Optional[torch.Tensor]]: A tuple with the loss,
            logits and labels (each being optional).
        """
        has_labels = (
            False
            if len(self.label_names) == 0
            else all(inputs.get(k) is not None for k in self.label_names)
        )
        # For CLIP-like models capable of returning loss values.
        # If `return_loss` is not specified or being `None` in `inputs`, we check if the default value of `return_loss`
        # is `True` in `model.forward`.
        return_loss = inputs.get("return_loss", None)
        if return_loss is None:
            return_loss = self.can_return_loss
        loss_without_labels = (
            True if len(self.label_names) == 0 and return_loss else False
        )

        inputs = self._prepare_inputs(inputs)
        if ignore_keys is None:
            if hasattr(self.model, "config"):
                ignore_keys = getattr(
                    self.model.config, "keys_to_ignore_at_inference", []
                )
            else:
                ignore_keys = []

        # labels may be popped when computing the loss (label smoothing for instance) so we grab them first.
        if has_labels or loss_without_labels:
            labels = nested_detach(tuple(inputs.get(name) for name in self.label_names))
            if len(labels) == 1:
                labels = labels[0]
        else:
            labels = None

        os.environ["UNSLOTH_RETURN_LOGITS"] = "1"
        with torch.no_grad():
            if has_labels or loss_without_labels:
                with self.compute_loss_context_manager():
                    loss, outputs = self.compute_loss(
                        model, inputs, return_outputs = True
                    )
                loss = loss.mean().detach()

                if isinstance(outputs, dict):
                    logits = tuple(
                        v for k, v in outputs.items() if k not in ignore_keys + ["loss"]
                    )
                else:
                    logits = outputs[1:]
            else:
                loss = None
                with self.compute_loss_context_manager():
                    tokenized_output = self.processing_class(
                        inputs["prompt"],
                        padding = True,
                        truncation = True,
                        return_tensors = "pt",
                    ).to(model.device)
                    outputs = model(**tokenized_output)
                if isinstance(outputs, dict):
                    logits = tuple(
                        v for k, v in outputs.items() if k not in ignore_keys
                    )
                else:
                    logits = outputs
                # TODO: this needs to be fixed and made cleaner later.
                if self.args.past_index >= 0:
                    self._past = outputs[self.args.past_index - 1]
        os.environ["UNSLOTH_RETURN_LOGITS"] = "0"
        if prediction_loss_only:
            return (loss, None, None)

        logits = nested_detach(logits)
        if len(logits) == 1:
            logits = logits[0]

        return (loss, logits, labels)

    import trl.trainer

    trainers = dir(trl.trainer)
    trainers = [x for x in trainers if x.endswith("_trainer")]
    unwrap = "unwrap_model_for_generation"
    for trainer in trainers:
        try:
            current_trainer = eval(f"trl.trainer.{trainer}")
        except:
            continue
        if hasattr(current_trainer, unwrap):
            try:
                exec(f"trl.trainer.{trainer}.{unwrap} = unsloth_{unwrap}")
            except:
                continue
    exec(f"Trainer.prediction_step=unsloth_prediction_step")


selective_log_softmax = RL_REPLACEMENTS["selective_log_softmax"]
calculate_pad_tokens_in_prompt = RL_REPLACEMENTS["calculate_pad_tokens_in_prompt"]
create_completion_attention_mask = RL_REPLACEMENTS["create_completion_attention_mask"]
left_pack_padding = RL_REPLACEMENTS["left_pack_padding"]
align_logprobs_with_mask = RL_REPLACEMENTS["align_logprobs_with_mask"]

RLTrainer_replacement = '''
import os
from typing import *
from dataclasses import dataclass, field
from packaging.version import Version
import torch
import numpy as np
from contextlib import nullcontext
from torch.nn import functional as F
import inspect
from transformers import DataCollatorForSeq2Seq, DataCollatorForLanguageModeling as TransformersDataCollatorForLanguageModeling
from transformers.training_args import ParallelMode

# Wrap trainer with padding to right and enable training mode
import functools
from types import MethodType
def prepare_for_training_mode(f):
    @functools.wraps(f)
    def wrapper(self, *args, **kwargs):
        # Enable training mode
        if hasattr(self, 'model') and hasattr(self.model, "for_training"):
            self.model.for_training()
        output = f(self, *args, **kwargs)
        # Return inference mode
        if hasattr(self, 'model') and hasattr(self.model, "for_inference"):
            self.model.for_inference()
        return output
    return wrapper
pass

torch_compile_options = {{
    "epilogue_fusion"   : True,
    "max_autotune"      : False,
    "shape_padding"     : True,
    "trace.enabled"     : False,
    "triton.cudagraphs" : False,
}}

{selective_log_softmax_code}
{calculate_pad_tokens_in_prompt_code}
{create_completion_attention_mask_code}
{left_pack_padding_code}
{align_logprobs_with_mask_code}

{RL_pre}

@dataclass
class Unsloth{RLConfig_name}({RLConfig_name}):
    """
    {__RLConfig_doc__}
    """
    vllm_sampling_params: Optional[Any] = field(
        default = None,
        metadata = {{'help': 'vLLM SamplingParams'}},
    )
    unsloth_num_chunks : Optional[int] = field(
        default = -1,
        metadata = {{'help': 'Chunk size to reduce memory usage. -1 is most efficient.'}},
    )
    {max_seq_length_pre}
    def __init__({RLConfig_arguments},
        vllm_sampling_params = None,
        unsloth_num_chunks = -1,
        {max_seq_length_call}
        **kwargs,
    ):
{RLConfig_extra_args}
        super().__init__({RLConfig_call_args}{RLConfig_kwargs})
        self.vllm_sampling_params = vllm_sampling_params
        self.unsloth_num_chunks = unsloth_num_chunks
        {max_seq_length_post}
pass

{RLTrainer_extras}

class Unsloth{RLTrainer_name}(_Unsloth{RLTrainer_name}):
    """
    {__RLTrainer_doc__}
    """
    def __init__({RLTrainer_arguments},
        **kwargs
    ):
        if args is None: args = Unsloth{RLConfig_name}()
{RLTrainer_extra_args}
        # [TODO] Fix up DataParallel multiplying batch sizes
        # [TODO] DDP works, but DP seems to not work? [TODO]
        if getattr(args, "parallel_mode", None) == ParallelMode.NOT_DISTRIBUTED and args.n_gpu > 1:
            if getattr(args, "_n_gpu", 1) != 1:
                args._n_gpu = 1
        if "model" in locals() and hasattr(model, "for_training"):
            model.for_training()
        super().__init__({RLTrainer_call_args}{RLTrainer_kwargs})
        if "model" in locals() and hasattr(model, "for_inference"):
            model.for_inference()
{RLTrainer_post}
pass
'''


def _patch_trl_rl_trainers(trainer_file = "grpo_trainer"):
    # Patch for vLLM and Unsloth PEFT
    import trl
    import trl.trainer

    try:
        trainer = eval(f"trl.trainer.{trainer_file}")
    except Exception as error:
        return

    # Get SFTTrainer and SFTConfig names
    name = [
        x
        for x in dir(trainer)
        if x.endswith("Trainer")
        and x != "Trainer"
        and trainer_file.split("_")[0] in x.lower()
    ]
    config = [
        x
        for x in dir(trainer)
        if x.endswith("Config")
        and x != "Config"
        and trainer_file.split("_")[0] in x.lower()
    ]
    if len(name) != 1:
        return
    if len(config) != 1:
        return

    # Get SFTTrainer, SFTConfig
    RLTrainer_name = name[0]
    RLConfig_name = config[0]
    try:
        RLTrainer = eval(f"trl.trainer.{trainer_file}.{RLTrainer_name}")
    except:
        return
    try:
        RLConfig = eval(f"trl.trainer.{trainer_file}.{RLConfig_name}")
    except:
        return

    # Check name
    if RLTrainer.__name__.startswith("Unsloth"):
        return
    if RLConfig.__name__.startswith("Unsloth"):
        return

    # Get old source
    old_RLTrainer_source = inspect.getsource(RLTrainer)
    old_RLConfig_source = inspect.getsource(RLConfig)

    all_imports = dir(trainer)
    # Fix _deprecate_arguments not getting imported so stop __ but not _
    imports = [x for x in all_imports if not x.startswith("__")]

    # Get default arguments
    EMPTY = inspect.Parameter.empty
    processed = []
    for RLobject in [RLTrainer, RLConfig]:
        parameters = inspect.signature(RLobject.__init__).parameters
        types = (
            bool,
            type(None),
            int,
            float,
            str,
        )
        arguments = ["self"]
        call_args = []
        for k, v in parameters.items():
            if k == "self":
                continue
            v = v.default
            if v == "\n":
                v = re.escape("\n")
            if v is EMPTY:
                arguments.append(k)
            elif type(v) is str:
                arguments.append(f"{k} = '{v}'")
            elif type(v) in types:
                arguments.append(f"{k} = {v}")
            else:
                continue
            call_args.append(f"{k} = {k}")
        arguments = f"\n{' '*8}" + f",\n{' '*8}".join(arguments)
        call_args = f"\n{' '*12}" + f",\n{' '*12}".join(call_args)
        processed.append(
            (
                arguments,
                call_args,
            )
        )

    # Process RLTrainer first
    arguments, call_args = processed[0]
    RLTrainer_post = ""

    # Add tokenizer if not seen
    if "tokenizer" not in parameters and "processing_class" in parameters:
        arguments += f",\n{' '*8}tokenizer = None"
        call_args = call_args.replace(
            "processing_class = processing_class",
            "processing_class = tokenizer if tokenizer is not None else processing_class",
        )

    # Edit bf16, fp16 by checking model's dtype/torch_dtype directly
    extra_args = ""
    if "args" in call_args and "model" in call_args:
        mixed_precision = (
            "use_bf16 = getattr(args, 'bf16', False)\n"
            "if type(use_bf16) is not bool: use_bf16 = False\n"
            "use_fp16 = getattr(args, 'fp16', False)\n"
            "if type(use_fp16) is not bool: use_fp16 = False\n"
            "force_float32 = False\n"
            "full_finetuning = os.environ.get('UNSLOTH_ENABLE_FULL_FINETUNING', '0') == '1'\n"
            "if not full_finetuning and (os.environ.get('UNSLOTH_FORCE_FLOAT32', '0') == '1'):\n"
            "    print('Unsloth: Switching to float32 training since model cannot work with float16')\n"
            "    force_float32 = True\n"
            "mixed_precision_dtype = os.environ.get('UNSLOTH_MIXED_PRECISION', 'float32')\n"
            "dtype = getattr(model.config, 'dtype', None) or getattr(model.config, 'torch_dtype', None)\n"
            "if dtype is None: dtype = model.get_input_embeddings().dtype\n"
            "from unsloth_zoo.utils import _get_dtype\n"
            "dtype = _get_dtype(dtype)\n"
            "float16 = dtype == torch.float16\n"
            "if not force_float32 and (float16 and use_bf16): raise TypeError('Unsloth: Model is in float16 precision but you want to use bfloat16 precision. Set fp16 to `True` and bf16 to `False`')\n"
            "if not force_float32 and (not float16 and use_fp16): raise TypeError('Unsloth: Model is in bfloat16 precision but you want to use float16 precision. Set fp16 to `False` and bf16 to `True`')\n"
            "if force_float32:\n"
            "    # Forced float32 training\n"
            "    args.fp16 = False\n"
            "    args.bf16 = False\n"
            "    os.environ['ACCELERATE_MIXED_PRECISION'] = 'no'\n"
            "elif (not use_bf16 and not use_fp16) and mixed_precision_dtype == 'float32':\n"
            "    # Mixed precision training\n"
            "    args.fp16 = float16\n"
            "    args.bf16 = not float16\n"
            "    os.environ['ACCELERATE_MIXED_PRECISION'] = 'fp16' if float16 else 'bf16'\n"
        )
        "elif mixed_precision_dtype == 'bfloat16':\n" "    # Both False since bfloat16 full finetuning doesn't do any autocasting.\n" "    args.fp16 = False\n" "    args.bf16 = False\n" "    os.environ['ACCELERATE_MIXED_PRECISION'] = 'no'\n"
        extra_args += mixed_precision

    # Check if per_device_eval_batch_size (default 8) bigger than bsz
    # Also use FP16 / BF16 evaluation
    if "args" in call_args:
        # Check eval_dataset first
        if "eval_dataset" in call_args:
            check_eval_dataset = (
                "if getattr(args, 'eval_dataset', None) is not None and "
                "getattr(args, 'eval_strategy', 'no') == 'no':\n"
                "    args.eval_strategy = 'steps'\n"
                "    if getattr(args, 'eval_steps', None) is None: args.eval_steps = 0.1\n"
            )
            extra_args += check_eval_dataset

        # Check if gradient accumulation bug fix is applied
        check_ga = (
            "ga_steps = getattr(args, 'gradient_accumulation_steps', None)\n"
            "if ga_steps is not None and ga_steps > 1:\n"
            "    from transformers import __version__ as transformers_version\n"
            "    if Version(transformers_version) <= Version('4.45.2'):\n"
            "        print('**** Unsloth: Please use our fixed gradient_accumulation_steps by updating transformers, TRL and Unsloth!\\n'\n"
            "              '`pip install --upgrade --no-cache-dir --force-reinstall --no-deps unsloth transformers trl unsloth_zoo`')\n"
        )
        extra_args += check_ga

        eval_changes = (
            "if getattr(args, 'eval_strategy', 'no') != 'no':\n"
            "    eval_bsz = getattr(args, 'per_device_eval_batch_size', 8)\n"
            "    if eval_bsz == 8 and args.per_device_train_batch_size < eval_bsz: args.per_device_eval_batch_size = args.per_device_train_batch_size\n"
            "    if getattr(args, 'eval_accumulation_steps', None) is None and ga_steps is not None: args.eval_accumulation_steps = ga_steps\n"
            "fp16_full_eval = getattr(args, 'fp16_full_eval', False)\n"
            "if type(fp16_full_eval) is not bool: fp16_full_eval = False\n"
            "bf16_full_eval = getattr(args, 'bf16_full_eval', False)\n"
            "if type(bf16_full_eval) is not bool: bf16_full_eval = False\n"
            "if args.fp16 and bf16_full_eval: args.bf16_full_eval = False; args.fp16_full_eval = True\n"
            "if args.bf16 and fp16_full_eval: args.bf16_full_eval = True; args.fp16_full_eval = False\n"
            "if force_float32:\n"
            "    args.bf16_full_eval = False\n"
            "    args.fp16_full_eval = False\n"
            "elif os.environ.get('UNSLOTH_MIXED_PRECISION', 'float32') == 'bfloat16':\n"
            "    args.bf16_full_eval = True\n"
            "    args.fp16_full_eval = False\n"
            "elif not bf16_full_eval and not fp16_full_eval:\n"
            "    args.bf16_full_eval = args.bf16\n"
            "    args.fp16_full_eval = args.fp16\n"
        )
        extra_args += eval_changes

    # Force logits to be produced if preprocess_logits_for_metrics or compute_metrics is used
    if "model" in call_args:
        logits_check = (
            "_output_logits = False\n"
            "if locals().get('compute_metrics', None) is not None: _output_logits = True\n"
            "if locals().get('preprocess_logits_for_metrics', None) is not None: _output_logits = True\n"
            "if _output_logits:\n"
            "    os.environ['UNSLOTH_RETURN_LOGITS'] = '1'\n"
        )
        extra_args += logits_check

    # Check max_seq_length
    if "model" in call_args:
        length_check = (
            "if 'max_seq_length' not in locals() and not hasattr(args, 'max_seq_length'):\n"
            "    pass\n"
            "else:\n"
            "    model_max_seq_length = getattr(model, 'max_seq_length', None)\n"
            "    args_max_seq_length  = getattr(args,  'max_seq_length', None)\n"
            "    if args_max_seq_length is None and model_max_seq_length is not None:\n"
            "        max_seq_length = model.max_seq_length\n"
            "        if hasattr(args, 'max_seq_length'): args.max_seq_length = max_seq_length\n"
        )
        "    elif args_max_seq_length is not None and model_max_seq_length is not None:\n" "        if args_max_seq_length > model_max_seq_length:\n" "            print('Unsloth: You set `max_seq_length` as ' + str(args_max_seq_length) + ' but \n" "                   the maximum the model supports is ' + str(model_max_seq_length) + '. We shall reduce it.')\n" "            args.max_seq_length = model_max_seq_length\n"
        extra_args += length_check

        # At this point max_seq_length might be set, but trl is moving to max_length
        if trainer_file == "sft_trainer":
            max_length_check = (
                "if 'max_length' not in locals() and not hasattr(args, 'max_length'):\n"
                "    pass\n"
                "else:\n"
                "    if hasattr(args, 'max_seq_length') and args.max_seq_length is not None and args.max_seq_length > 0:\n"
                "        if hasattr(args, 'max_length'):\n"
                "            args.max_length = args.max_seq_length\n"
                "            max_length = args.max_length\n"
                "    else:\n"
                "        model_max_length = getattr(model, 'max_seq_length', None)\n"
                "        if model_max_length is None: model_max_length = getattr(model, 'max_length', None)\n"
                "        if model_max_length is not None:\n"
                "            args.max_length = model_max_length\n"
                "            max_length = args.max_length\n"
                "        elif hasattr(args, 'max_length') and args.max_length is not None:\n"
                "            max_length = args.max_length\n"
                "            # if we are here, then we are in a weird case where max_length is set but max_seq_length is not set\n"
                "            setattr(model, 'max_seq_length', max_length)\n"
                "        else:\n"
                "            print('Unsloth: We did not find `max_seq_length` or `max_length` in the model or args. We will set it to 1024.')\n"
                "            args.max_length = 1024\n"
            )
            extra_args += max_length_check

    # Enable for training and move padding side of tokenizer to right
    if "model" in call_args:
        training_check = (
            "if model is not None and hasattr(model, 'for_training'):\n"
            "    model.for_training()\n"
            "if 'tokenizer' in locals() and hasattr(tokenizer, 'padding_side'): tokenizer.padding_side = 'right'\n"
            "if 'processing_class' in locals():\n"
            "    if hasattr(processing_class, 'padding_side'): processing_class.padding_side = 'right'\n"
            "    if hasattr(processing_class, 'tokenizer') and hasattr(processing_class.tokenizer, 'padding_side'): "
            "processing_class.tokenizer.padding_side = 'right'\n"
        )
        extra_args += training_check

    # Check data collator if it's correct!
    if "data_collator" in call_args and "train_dataset" in call_args:
        data_collator_check = (
            "__tokenizer = processing_class if 'processing_class' in locals() else tokenizer\n"
            "from unsloth_zoo.vision_utils import UnslothVisionDataCollator\n"
            "if not isinstance(data_collator, UnslothVisionDataCollator):\n"
            "    if isinstance(data_collator, DataCollatorForSeq2Seq) and 'labels' not in train_dataset.column_names:\n"
            "        data_collator = TransformersDataCollatorForLanguageModeling(\n"
            "            __tokenizer,\n"
            "            mlm = False,\n"
            "            mlm_probability = 0.0,\n"
            "            pad_to_multiple_of = getattr(args, 'pad_to_multiple_of', None),\n"
            "        )\n"
            "    elif isinstance(data_collator, TransformersDataCollatorForLanguageModeling) and 'labels' in train_dataset.column_names:\n"
            "        data_collator = DataCollatorForSeq2Seq(\n"
            "            __tokenizer,\n"
            "            pad_to_multiple_of = getattr(args, 'pad_to_multiple_of', None),\n"
            "        )\n"
            "else:\n"
            "    if hasattr(args, 'remove_unused_columns'): args.remove_unused_columns = False\n"
            "    if hasattr(args, 'dataset_text_field'): args.dataset_text_field = ''\n"
            "    if hasattr(args, 'dataset_kwargs'): args.dataset_kwargs = {'skip_prepare_dataset': True}\n"
        )
        extra_args += data_collator_check

        # Also check if .pad exists -> if not, and is VLM, then change it!
        pad_check = (
            "if not isinstance(data_collator, UnslothVisionDataCollator):\n"
            "    if not hasattr(__tokenizer, 'pad') and hasattr(__tokenizer, 'tokenizer'):\n"
            "        if isinstance(data_collator, DataCollatorForSeq2Seq):\n"
            "            data_collator = DataCollatorForSeq2Seq(\n"
            "                __tokenizer.tokenizer,\n"
            "                pad_to_multiple_of = getattr(args, 'pad_to_multiple_of', None),\n"
            "            )\n"
            "        else:\n"
            "            data_collator = TransformersDataCollatorForLanguageModeling(\n"
            "                __tokenizer.tokenizer,\n"
            "                mlm = False,\n"
            "                mlm_probability = 0.0,\n"
            "                pad_to_multiple_of = getattr(args, 'pad_to_multiple_of', None),\n"
            "            )\n"
        )
        extra_args += pad_check

    # Check NEFTune
    if "model" in call_args:
        neftune_check = (
            "if hasattr(self, 'neftune_hook_handle'):\n"
            "    self.neftune_hook_handle.remove()\n"
            "    if hasattr(self, 'neftune_hook_handle'): del self.neftune_hook_handle\n"
            "if getattr(args, 'neftune_noise_alpha', None) is not None:\n"
            "    model.get_input_embeddings().neftune_noise_alpha = self.neftune_noise_alpha\n"
            "pass\n"
        )
        RLTrainer_post += neftune_check

    # Add accelerator scaler to model
    if "model" in call_args:
        accelerator_check = (
            "if hasattr(self, 'accelerator'):\n"
            "    scaler = self.accelerator.scaler\n"
            "    current_model = model\n"
            "    while hasattr(current_model, 'model'):\n"
            "        current_model.accelerator_scaler = scaler\n"
            "        current_model = current_model.model\n"
            "    current_model.accelerator_scaler = scaler\n"
            "pass\n"
        )
        RLTrainer_post += accelerator_check

    # Add enabling and disabling training modes
    if "model" in call_args:
        training_check = (
            "if hasattr(self, 'train'):\n"
            "    self.train = MethodType(prepare_for_training_mode(self.__class__.train), self)\n"
            "pass\n"
        )
        RLTrainer_post += training_check

    # Edit optional metrics
    other_metrics_processor = ""
    if trainer_file in RL_METRICS_CHANGES:
        process_extra_args = RL_METRICS_CHANGES[trainer_file]
        for process_extra_arg in process_extra_args:
            other_metrics_processor += process_extra_arg(
                old_RLTrainer_source, old_RLConfig_source
            )

    # Add statistics as well!
    extra_args += (
        "other_metrics = []\n"
        f"{other_metrics_processor}\n"
        "from unsloth_zoo.logging_utils import PatchRLStatistics\n"
        f"PatchRLStatistics('{trainer_file}', other_metrics)\n"
    )

    # Patch optional args
    if trainer_file in RL_EXTRA_ARGS:
        process_extra_args = RL_EXTRA_ARGS[trainer_file]
        for process_extra_arg in process_extra_args:
            extra_args += process_extra_arg(call_args, extra_args)

    # Create RLTrainer args
    extra_args = extra_args.split("\n")
    extra_args = "\n".join(" " * 8 + x for x in extra_args)
    RLTrainer_post = RLTrainer_post.split("\n")
    RLTrainer_post = "\n".join(" " * 8 + x for x in RLTrainer_post)
    RLTrainer_arguments = arguments
    RLTrainer_extra_args = extra_args
    RLTrainer_call_args = call_args

    # Fix RLConfig next
    arguments, call_args = processed[1]
    extra_args = ""

    # Edit GA / bsz and weight_decay
    replacements = {
        "output_dir": None,
        "logging_nan_inf_filter": False,
        "per_device_train_batch_size": 4,
        "gradient_accumulation_steps": 2,
        "weight_decay": 0.01,
        "warmup_ratio": 0.1,
        "seed": 3407,
        "optim": "adamw_8bit",
        "learning_rate": 5e-05,
        "per_device_eval_batch_size": 4,
        "eval_accumulation_steps": 2,
        "torch_empty_cache_steps": 250,
        "logging_steps": 1,
        "max_seq_length": None,
        "num_generations": 8,
        # "steps_per_generation"          : 1, # Otherwise defaults to ga_steps which is wrong
        # "generation_batch_size"         : None, # Useless. If steps_per_generation set, generation_batch_size clashes
        "top_k": None,
        "vllm_mode": "colocate",
        "generation_kwargs": {},
        "bf16": False,
        "fp16": False,
        "include_tokens_per_second": False,
        "include_num_input_tokens_seen": False,
        "auto_find_batch_size": False,  # Auto /2 batch size - too many people complained so removing
        "dataloader_pin_memory": True,
        # Might fail so disable for now
        # "dataloader_persistent_workers" : True, # Keeps dataloader in RAM
        # "dataloader_prefetch_factor"    : 2,
        # "dataloader_num_workers"        : 2, # Default is 0 means 1
    }
    for k, v in replacements.items():
        x = f"{k}( = [^,\n]{{1,}})?,\n"
        y = f"'{v}'" if type(v) is str else f"{v}"
        y = f"{k} = {y},\n"
        arguments = re.sub(x, y, arguments)

    # Fix GRPO beta default as 0.001 TRL used to be 0.04, now 0.00!
    # https://github.com/huggingface/trl/pull/3516
    # https://verl.readthedocs.io/en/latest/examples/config.html
    if trainer_file == "grpo_trainer":
        replacements = {
            "loss_type": "bnpo",  # Default GRPO paper
            "beta": 0.001,  # Recommended as seen in verl
            "auto_find_batch_size": False,  # Cannot work on GRPO
            # [TODO] See https://fengyao.notion.site/off-policy-rl
            # https://github.com/huggingface/trl/pull/3867 (August 7th)
            "vllm_importance_sampling_correction": False,
        }
        for k, v in replacements.items():
            x = f"{k}( = [^,\n]{{1,}})?,\n"
            y = f"'{v}'" if type(v) is str else f"{v}"
            y = f"{k} = {y},\n"
            arguments = re.sub(x, y, arguments)

    # Warn on too large or too small learning rate
    if "learning_rate" in call_args:
        learning_rate_check = (
            "if learning_rate < 1e-7: print(f'Unsloth: Your learning rate of `{learning_rate}` is too small and less than 1e-7! "
            "Consider increasing it, otherwise gradient updates will be close to 0!')\n"
            "if learning_rate > 1: print(f'Unsloth: Your learning rate of `{learning_rate}` is way too larger > 1! "
            "Consider decreasing it to 1e-1, otherwise gradient updates will explode!')\n"
        )
        extra_args += learning_rate_check

    # Check if max_seq_length is NOT defined (max_length is now default)
    if "max_seq_length" not in call_args and "max_length" in call_args:
        max_seq_length_pre = """max_seq_length : Optional[int] = field(
        default = None,
        metadata = {'help': 'Maximum sequence length to truncate to.'},
    )"""
        max_seq_length_call = "max_seq_length = None,"
        max_seq_length_post = "self.max_seq_length = max_seq_length"
    else:
        max_seq_length_pre = ""
        max_seq_length_call = ""
        max_seq_length_post = ""

    # Add output_dir saving
    if "output_dir" in call_args:
        # Default checks
        saving_check = (
            "if output_dir is None and save_strategy == 'steps' and save_steps == 500:\n"
            "    output_dir = 'unsloth_training_checkpoints'\n"
            "    save_strategy = 'no'\n"
        )
        extra_args += saving_check

    # Edit dataset_num_proc
    if "dataset_num_proc" in call_args:
        num_proc_check = (
            "if dataset_num_proc is None:\n"
            "    from multiprocessing import cpu_count\n"
            "    dataset_num_proc = min(max(cpu_count()+4, 2), 64)\n"
        )
        extra_args += num_proc_check

    # Add padding if flex attention is added
    if "pad_to_multiple_of" in call_args:
        pad_to_multiple_of = (
            "if os.environ.get('UNSLOTH_ENABLE_FLEX_ATTENTION', '0') == '1':\n"
            "    from unsloth_zoo.flex_attention import HAS_FLEX_ATTENTION\n"
            "    if HAS_FLEX_ATTENTION and pad_to_multiple_of is None:\n"
            "        from unsloth_zoo.flex_attention import FLEX_ATTENTION_BLOCK_SIZE\n"
            "        pad_to_multiple_of = FLEX_ATTENTION_BLOCK_SIZE\n"
            "\n"
        )
        extra_args += pad_to_multiple_of

    # Check for loss_type = dr_grpo and scale_rewards for GRPO
    if "loss_type" in call_args and "scale_rewards" in call_args:
        # See https://github.com/huggingface/trl/issues/3130#issuecomment-2746947835
        # DAPO uses per token loss so BNPO loss used
        check_dr_grpo = (
            "if loss_type.lower() == 'dr_grpo':\n"
            "    loss_type = 'dr_grpo'\n"
            "elif loss_type.lower() == 'dapo':\n"
            "    loss_type = 'dapo'\n"
            "if loss_type.lower() == 'dr_grpo':\n"
            "    if scale_rewards == None:\n"
            "        scale_rewards = True\n"
            "    elif scale_rewards == True:\n"
            "        print('Unsloth: The Dr GRPO paper recommends setting `scale_rewards` to False! Will override. Set it to `None` to force False.')\n"
            "        scale_rewards = False\n"
            "elif loss_type.lower() == 'dapo':\n"
            "    if mask_truncated_completions != True:\n"
            "        print('Unsloth: The DAPO paper recommends `mask_truncated_completions = True` - we will set it.')\n"
            "    if epsilon_high != 0.28:\n"
            "        print('Unsloth: The DAPO paper recommends `epsilon_high = 0.28` - we will set it.')\n"
            "    if beta != 0.0:\n"
            "        print(f'[WARNING] Unsloth: The DAPO paper recommends setting `beta = 0.0` to remove the KL term - You have set it to {beta}.')\n"
            "    mask_truncated_completions = True\n"
            "    epsilon_high = 0.28\n"
            "\n"
        )
        extra_args += check_dr_grpo

    # Check GRPO num_generations mismatch
    if (
        "per_device_train_batch_size" in call_args
        and "num_generations" in call_args
        and "steps_per_generation" in call_args
        and "generation_batch_size" in call_args
    ):
        # if world size is not set by accelerate or torchrun at this point it will be 1
        check_num_generations = (
            "if steps_per_generation is None and generation_batch_size is None:\n"
            "    ga = gradient_accumulation_steps\n"
            "    world_size = int(os.environ.get('WORLD_SIZE', '1'))\n"
            "    if (ga * world_size * per_device_train_batch_size) % num_generations != 0:\n"
            "        print('Unsloth: We now expect `per_device_train_batch_size` * `gradient_accumulation_steps` * `world_size` to be a multiple of `num_generations`.\\n"
            "We will change the batch size of ' + str(per_device_train_batch_size) + ' to the `num_generations` of ' + str(num_generations))\n"
            "        per_device_train_batch_size = num_generations\n"
            "\n"
        )
        extra_args += check_num_generations
    elif "per_device_train_batch_size" in call_args and "num_generations" in call_args:
        if "steps_per_generation" not in call_args:
            print(f"Unsloth: Could not find `steps_per_generation` in {trainer_file}")
        if "generation_batch_size" not in call_args:
            print(f"Unsloth: Could not find `generation_batch_size` in {trainer_file}")

        check_num_generations = (
            "if (per_device_train_batch_size // num_generations) * num_generations != per_device_train_batch_size:\n"
            "    print('Unsloth: We now expect `per_device_train_batch_size` to be a multiple of `num_generations`.\\n"
            "We will change the batch size of ' + str(per_device_train_batch_size) + ' to the `num_generations` of ' + str(num_generations))\n"
            "    per_device_train_batch_size = num_generations\n"
            "\n"
        )
        extra_args += check_num_generations

    # Check temperature must not be <= 0. Also stop if >= 10
    if "temperature" in call_args:
        check_temperature = (
            "if temperature <= 0:\n"
            "    raise MathError('Unsloth: Please set a positive non-zero temperature since your results will be wrong.')\n"
            "elif temperature >= 10:\n"
            "    raise MathError('Unsloth: Please set a positive non-zero temperature less than 10, since sampling will be quite erratic.')\n"
            "\n"
        )
        extra_args += check_temperature

    # Edit config with anything extra
    if trainer_file in RL_CONFIG_CHANGES:
        process_extra_args = RL_CONFIG_CHANGES[trainer_file]
        for process_extra_arg in process_extra_args:
            extra_args += process_extra_arg(old_RLTrainer_source, old_RLConfig_source)

    # Edit report_to and default it to nothing if max_steps is like 60

    # Create RLConfig args
    extra_args = extra_args.split("\n")
    extra_args = "\n".join(" " * 8 + x for x in extra_args)
    RLConfig_arguments = arguments
    RLConfig_extra_args = extra_args
    RLConfig_call_args = call_args

    # Patch vLLM and other functions
    RLTrainer_extras = patch_functions(
        RLTrainer, trainer_file, RLTrainer_name, all_imports, imports
    )
    if RLTrainer_extras is None:
        RLTrainer_extras = f"_Unsloth{RLTrainer_name} = {RLTrainer_name}"

    # Create full module
    exec(f"from trl.trainer import ({RLTrainer_name}, {RLConfig_name},)")
    __RLTrainer_doc__ = eval(f"trl.trainer.{RLTrainer_name}").__doc__
    if __RLTrainer_doc__ is None:
        __RLTrainer_doc__ = ""
    __RLConfig_doc__ = eval(f"trl.trainer.{RLConfig_name}").__doc__
    if __RLConfig_doc__ is None:
        __RLConfig_doc__ = ""

    # Get all pre-modules
    if trainer_file in RL_PRE_ITEMS:
        RL_pre = "\n".join(RL_PRE_ITEMS[trainer_file])
    else:
        RL_pre = ""

    # Check if SamplingParams is in there
    if "SamplingParams" in old_RLTrainer_source:
        RL_pre = RL_pre + "\n" + inspect.getsource(vLLMSamplingParams)

    # Selective log softmax and other functions
    selective_log_softmax_code = inspect.getsource(selective_log_softmax)
    calculate_pad_tokens_in_prompt_code = inspect.getsource(
        calculate_pad_tokens_in_prompt
    )
    create_completion_attention_mask_code = inspect.getsource(
        create_completion_attention_mask
    )
    left_pack_padding_code = inspect.getsource(left_pack_padding)
    align_logprobs_with_mask_code = inspect.getsource(align_logprobs_with_mask)
    # Get final source code
    RLTrainer_source = RLTrainer_replacement.format(
        RLTrainer_name = RLTrainer_name,
        __RLTrainer_doc__ = __RLTrainer_doc__,
        RLTrainer_arguments = RLTrainer_arguments,
        RLTrainer_extra_args = RLTrainer_extra_args,
        RLTrainer_call_args = RLTrainer_call_args,
        RLTrainer_kwargs = ",**kwargs"[1 if RLTrainer_call_args.endswith(",") else 0 :],
        RLConfig_name = RLConfig_name,
        __RLConfig_doc__ = __RLConfig_doc__,
        RLConfig_arguments = RLConfig_arguments,
        RLConfig_extra_args = RLConfig_extra_args,
        RLConfig_call_args = RLConfig_call_args,
        RLConfig_kwargs = ",**kwargs"[1 if RLConfig_call_args.endswith(",") else 0 :],
        RLTrainer_extras = RLTrainer_extras,
        RLTrainer_post = RLTrainer_post,
        RL_pre = RL_pre,
        max_seq_length_pre = max_seq_length_pre,
        max_seq_length_call = max_seq_length_call,
        max_seq_length_post = max_seq_length_post,
        selective_log_softmax_code = selective_log_softmax_code,
        calculate_pad_tokens_in_prompt_code = calculate_pad_tokens_in_prompt_code,
        create_completion_attention_mask_code = create_completion_attention_mask_code,
        left_pack_padding_code = left_pack_padding_code,
        align_logprobs_with_mask_code = align_logprobs_with_mask_code,
    )

    if RLTrainer_name == "SFTTrainer":
        original_text = 'self._signature_columns = ["input_ids", "attention_mask", "completion_mask"]'
        new_text = 'self._signature_columns = ["input_ids", "attention_mask", "completion_mask","labels"]'
        RLTrainer_source = RLTrainer_source.replace(original_text, new_text)

        # Temporary patch _is_vlm to False
        # as of 0.22 it only exists in sfttrainer
        oriignal_is_vlm_text = "self._is_vlm = True"
        new_is_vlm_text = "self._is_vlm = False"
        RLTrainer_source = RLTrainer_source.replace(
            oriignal_is_vlm_text, new_is_vlm_text
        )

    # Remove multiple doc strings
    if __RLConfig_doc__ != "" and RLTrainer_source.count(__RLTrainer_doc__) == 2:
        RLTrainer_source = RLTrainer_source.replace(__RLTrainer_doc__, "", 1)

    # Remove multiple newlines
    RLTrainer_source = re.sub(r"[\n]{3,}", "\n", RLTrainer_source)

    # Create new function
    created_module = create_new_function(
        f"Unsloth{RLTrainer_name}",
        RLTrainer_source,
        f"trl.trainer.{trainer_file}",
        imports,
        overwrite = True,
    )

    # Patch Trainer
    exec(
        f"trl.{RLTrainer_name} = created_module.Unsloth{RLTrainer_name}",
        locals(),
        globals(),
    )
    exec(
        f"trl.trainer.{RLTrainer_name} = created_module.Unsloth{RLTrainer_name}",
        locals(),
        globals(),
    )
    exec(
        f"trl.trainer.{trainer_file}.{RLTrainer_name} = created_module.Unsloth{RLTrainer_name}",
        locals(),
        globals(),
    )

    # Patch Config
    exec(
        f"trl.{RLConfig_name} = created_module.Unsloth{RLConfig_name}",
        locals(),
        globals(),
    )
    exec(
        f"trl.trainer.{RLConfig_name} = created_module.Unsloth{RLConfig_name}",
        locals(),
        globals(),
    )
    exec(
        f"trl.trainer.{trainer_file}.{RLConfig_name} = created_module.Unsloth{RLConfig_name}",
        locals(),
        globals(),
    )


def patch_functions(RLTrainer, trainer_file, RLTrainer_name, all_imports, imports):
    init = inspect.getsource(RLTrainer.__init__)
    old_init = init

    # Remove brackets in comments since it interferes ie (...)
    comments = re.findall(r"\#[^\n]{1,}\n", init)
    bracketed_comments = [x for x in comments if "(" in x or ")" in x]
    # Replace with [...] instead
    for bracketed_comment in bracketed_comments:
        init = init.replace(
            bracketed_comment,
            bracketed_comment.replace("(", "[").replace(")", "]"),
        )

    # Remove peft_config
    init = init.replace("elif peft_config is None:", "elif False:")
    init = init.replace("elif peft_config is not None:", "elif False:")
    init = init.replace("if peft_config is None:", "if False:")
    init = init.replace("if peft_config is not None:", "if False:")
    init = init.replace("get_peft_model(model, peft_config)", "model")
    # New TRL 0.20.0
    init = init.replace(
        "if peft_config is not None or (is_peft_available() and isinstance(model, PeftModel)):",
        "if False:",
    )
    # New TRL 0.20.0
    init = init.replace(
        "model = self._prepare_peft_model(model, peft_config, args)\n", "pass\n"
    )

    # Set use_vllm if not set
    if "args.use_vllm" in init and "model" in init and "args" in init:
        # .*? matches first match. .+? matches final match.
        replacer = re.findall(
            r"def __init__\(.*?\).*?\:\n",
            init,
            flags = re.MULTILINE | re.DOTALL,
        )
        if len(replacer) != 0:
            replacer = replacer[0]
            vllm_setter = (
                "\n"
                + " " * 8
                + "if hasattr(model, 'vllm_engine') and hasattr(args, 'use_vllm'):\n"
                + " " * 12
                + "if (getattr(args, 'use_vllm', False) == False):\n"
                + " " * 16
                + "args.use_vllm = True\n"
            )
            # " " * 16 + "args.vllm_importance_sampling_correction = True\n" + \
            # " " * 16 + "args.vllm_importance_sampling_cap = 2.0\n"

            if "grpo" in trainer_file and trl_version >= Version("0.18.0"):
                # If model has vllm_engine, then use vllm in colocate mode. Donot wait for server
                vllm_setter += " " * 12 + "args.vllm_mode='colocate'\n"
                if trl_version >= Version("0.23.0"):
                    # We need to set this flag for sleep mode auto working with trl update
                    vllm_setter += (
                        " " * 12
                        + "if os.environ.get('UNSLOTH_VLLM_STANDBY', '0') == '1':\n"
                        + " " * 16
                        + "args.vllm_enable_sleep_mode=True\n"
                    )

            init = init.replace(replacer, replacer + vllm_setter)

    # breakpoint()

    vllm_part = re.findall(
        r"(\n[\s]{8}" r"if (self|args)\.use_vllm\:.*?" r"\n[\s]{8}" "else:\n)",
        init,
        flags = re.MULTILINE | re.DOTALL,
    )

    if len(vllm_part) == 1:
        vllm_part, args = vllm_part[0][0], vllm_part[0][1]
        # Strip all comments
        new_vllm_part = re.sub(
            r"^\s*\#[^\n]*\n?", "", vllm_part, flags = re.MULTILINE
        )  # to also remove whole comment line instead of just starting at #
        new_vllm_part = re.sub(
            r"\s*\#.*$", "", new_vllm_part, flags = re.MULTILINE
        )  # remove comments that occur after code

        # Get SamplingParams
        sampling_params = re.findall(
            r"\n[\s]{4,}(self\.[^\s]{1,}[\s]{0,}\=[\s]{0,}" r"SamplingParams\(.+?\))",
            new_vllm_part,
            flags = re.MULTILINE | re.DOTALL,
        )

        if len(sampling_params) == 1:
            sampling_params = sampling_params[0]
            # Fix guided_decoding
            sampling_params = sampling_params.replace(
                "guided_decoding=guided_decoding,",
                "guided_decoding="
                'GuidedDecodingParams(backend="outlines", regex=args.vllm_guided_decoding_regex) '
                'if getattr(args, "vllm_guided_decoding_regex", None) is not None else None,',
            )
            # Replace with our vLLM engine
            sampling_params = (
                " " * 12
                + "self.llm = model.vllm_engine; self._last_loaded_step = 0; "
                + sampling_params
            )  # Add spaces

            # count the indentation of last line of sampling_params.
            splitted_sampling_params = sampling_params.split("\n")
            if len(splitted_sampling_params) >= 2:
                last_line = splitted_sampling_params[-1]
                last_prev_line = splitted_sampling_params[-2]
                last_prev_indentation = len(last_prev_line) - len(
                    last_prev_line.lstrip()
                )
                last_indentation = len(last_line) - len(last_line.lstrip())

                # Add extra arguments to SamplingParams
                extra = "**getattr(getattr(args, 'vllm_sampling_params', vLLMSamplingParams()), '_set_kwargs', {})"
                # Backwards replace
                to_replace = (
                    ",\n"
                    + " " * last_prev_indentation
                    + extra
                    + ",\n"
                    + " " * last_indentation
                    + ")"
                )
                sampling_params = to_replace.join(sampling_params.rsplit(")", 1))
                # Strip multiple commas
                sampling_params = re.sub(r"[\,][\s]{0,}\,", ",", sampling_params)

                new_vllm_part = (
                    f"\n{' '*8}if {args}.use_vllm:\n{sampling_params}"
                    f"\n{' '*8}else:\n"
                )

        if trl_version >= Version("0.18.0"):
            # Replace LLM init with already existing vLLM engine for colocate mode
            vllm_llm_init_pattern = r"self\.llm\s*=\s*LLM\(.*?\)*\)\s*?\n(?!,)"
            vllm_llm_replacement = "self.llm = model.vllm_engine\n"
            new_vllm_part = re.sub(
                vllm_llm_init_pattern,
                vllm_llm_replacement,
                new_vllm_part,
                flags = re.DOTALL,  # Ensure . matches newlines [[5]]
            )

        init = init.replace(vllm_part, new_vllm_part)

    # Search for vLLM calling in all child functions
    functions = dir(RLTrainer)
    RLTrainer_source = inspect.getsource(RLTrainer)
    functions = [x for x in functions if f"def {x}" in RLTrainer_source]

    changed = {
        "__init__": (
            old_init,
            init,
        )
    }
    edit_functions = RL_FUNCTIONS.get(trainer_file, [])

    for function in functions:
        if not hasattr(RLTrainer, function):
            continue
        fx = getattr(RLTrainer, function)
        try:
            source = inspect.getsource(fx)
        except:
            continue
        original_source = source

        # Check for function
        for edit_function in edit_functions:
            source = edit_function(function, source)

        """
        import torch
        X = torch.ones((2, 2048, 201088), dtype = torch.bfloat16, device = "cuda")
        X[torch.randperm(2, dtype = torch.int64, device = X.device)]

        will error out in torch 2.8 AcceleratorError: CUDA error: invalid configuration argument
        """
        source = re.sub(
            r"(\n[\s]{4,})generation_batch = shuffle_sequence_dict\(generation_batch\)\n",
            r"\n\1try: generation_batch = shuffle_sequence_dict(generation_batch)\n\1except: pass\n",
            source,
        )

        # llm_model = self.llm.llm_engine.model_executor.driver_worker.model_runner.model
        source = re.sub(
            r"(\n[\s]{4,}).+?model_executor\.driver_worker.+?\n",
            r"\n\1pass\n",
            source,
        )

        # llm_model.load_weights(model.state_dict().items())
        source = re.sub(
            r"(\n[\s]{4,}).+?load_weights\(.+?\n",
            r"\n\1pass\n",
            source,
        )

        # .state_dict()
        source = re.sub(
            r"\.state_dict\(\)",
            r"",
            source,
        )

        # Replace self.llm.generate and self.llm.chat
        if "CUDA_VISIBLE_DEVICES" in os.environ:
            lora_name = (
                trainer_file
                + "_lora_model_' + "
                + "(os.environ.get('CUDA_VISIBLE_DEVICES', '0').replace(',',''))"
            )
        else:
            lora_name = trainer_file + "_lora_model'"
        source = re.sub(
            r"(self\.llm\.(?:generate|chat)\([^\)]{1,})\)",
            r"\1, lora_request = self.model.load_lora('"
            + lora_name
            + r", load_tensors = True))",
            source,
        )
        # Prefer using unsloth's sampling params and fallback to trl's if not found
        # We'll enable this later separately when combining both this and GRPOConfig params
        # source = re.sub(
        #     r"sampling_params\s*=\s*sampling_params",
        #     r"sampling_params = getattr(self.args, 'vllm_sampling_params', sampling_params)",
        #     source
        # )
        # Fix later versions of SamplingParams via grpo_update_SamplingParams
        source = source.replace(
            "sampling_params = SamplingParams(**generation_kwargs)",
            "sampling_params = SamplingParams("
            "**grpo_update_SamplingParams("
            "SamplingParams, generation_kwargs, "
            "getattr(self.args, 'vllm_sampling_params', None)"
            ")"
            ")",
        )

        # Skip if no changes done
        if source == original_source:
            continue

        # Find all imports
        imports += [x for x in all_imports if not x.startswith("_") and x in source]

        changed[function] = (
            original_source,
            source,
        )

    # Import all functions
    imports = list(set(imports))

    # Patch all functions
    for function in changed:
        old, new = changed[function]
        RLTrainer_source = RLTrainer_source.replace(old, new)

    RLTrainer_source = RLTrainer_source.replace(
        f"class {RLTrainer_name}", f"class _Unsloth{RLTrainer_name}", 1
    )
    return RLTrainer_source


def patch_trl_rl_trainers():
    # Patch all TRL modules if they have vLLM or PEFT
    import trl.trainer

    all_trainers = dir(trl.trainer)
    all_trainers = [x for x in all_trainers if x.islower() and x.endswith("_trainer")]
    for trainer in all_trainers:
        _patch_trl_rl_trainers(trainer)
    return


def PatchFastRL(algorithm = None, FastLanguageModel = None):
    if FastLanguageModel is not None:
        PatchRL(FastLanguageModel)
    patch_trl_rl_trainers()
    if type(algorithm) is str and algorithm.islower():
        PatchRLStatistics(algorithm)
